April 1, 2015 TO: PARTIES INTERESTED IN FLEXIBLE FLASHING MATERIALS SUBJECT: Proposed Revisions to the Acceptance Criteria for Flexible Flashing Materials, Subject AC148-0415-R1 (ST/YM) Dear Colleague: We are seeking your comments on proposed revisions to the subject acceptance criteria, as presented in the enclosed draft. The revisions, which are being posted on the ICC-ES web site for 30 days of public comment, may be summarized as follows: 1. Update to reflect the requirements of the 2015 International Building Code (IBC) and 2015 International Residential Code (IRC). The following is a summary of the revisions to the code that necessitate the proposed revisions. a. 2015 IRC: There are 2 changes that effect AC148: i. Mechanically fastened flashing must now demonstrate compliance with the requirements of AAMA 712-2011, based on the addition of this standard to IRC Section R703.4. ii. Self-adhered flashings must now comply with AAMA 711-2013, based on the updated edition of this standard now referenced in IRC Section R703.4. b. 2015 IBC: The limitation of use of self-adhered or mechanically fastened flashing on buildings of Type V construction is revised based on the change to IBC Section 1403.5 that provides an exemption for flashing used with fenestration products from being tested as part of a wall assembly in accordance with NFPA 285. This code change was based on Code Change FS147-12, As Modified by Public Comment 1 & 2. With regards to compliance with the 2015 IRC for mechanically fastened flashings (Item 1.a.i.), there are a number of differences between the requirements in the current version of AC148 and AAMA 712-2011. Specifically, we noted the following: Tensile testing specimen conditioning: AAMA 712 (Section 5.2.2) only requires UV exposure for the tensile strength testing whereas AC148 requires conditioning as set forth in AAMA 711 Sections 5.3 (UV exposure), 5.5 (elevated temperature), 5.6
AC148-0415-R1 2 (thermal cycling) and 5.8 (cold temperature). Therefore, the conditioning requirements in AAMA 712 are not as stringent. Tensile testing test methods: AAMA 712 (Section 5.1) is more specific on methods for tensile testing than AC148 (Section 4.1.2) though there is no difference in the pass values. This will require review of each ESR to determine whether new tensile testing is necessary to comply with AAMA 712. However, due to the changes the in UV exposure contained in AAMA 712, it would appear that all products would need to be re-tested for compliance. Nail sealability testing: AAMA 712 has no such requirements whereas AC148 (Section 4.2.2) requires this testing. UV exposure: AAMA 712 (Section 5.2) specifies the use of ASTM G154, Cycle 1 exposure. AC148 Section 4.4.2 uses an older prescriptive test exposure criteria. At this point, we do not have information that correlates between the two exposure methods. Pliability: AAMA 712 Section 5.4 requires testing at -18 degrees C. AC148 Section 4.6.2 uses 0 degrees C. Therefore, this requirement of AAMA 712 would necessitate re-testing for materials that were originally evaluated based on the pliability requirements of AC148. Tear resistance: AAMA 712 requires testing in accordance with ASTM D4533. AC148 does not require this testing. Therefore, this requirement of AAMA 712 would necessitate submission of tear resistance testing for materials that were originally evaluated based on the pliability requirements of AC148. In summary, based upon our review of AAMA 712, report applicants seeking recognition under the 2015 IRC will need to submit new test data in accordance with AAMA 712. Conversely, if new applicants submit data in accordance with AAMA 712 only, the report recognition would be limited to the 2015 IRC. Recognition under the other editions of the codes would require data in accordance with AC148. With regards to the updated edition of AAMA 711, we have reviewed the differences between AAMA 711-2007 and -2013 editions (item 1.b.) and it is staff s opinion that selfadhering flashing that has been evaluated for compliance with the current version of AC148 would not require additional testing. Recognition under the 2015 edition of the IBC and IRC may be added editorially without re-testing. Additionally, self-adhering flashing that is tested in accordance with AAMA 711-2013 would also be eligible to be recognized under earlier editions of the IBC and IRC.
AC148-0415-R1 3 Since the proposed changes reflect the requirements of the latest edition of the IBC and IRC, they would only apply to applicants seeking recognition under the 2015 edition of the codes. We do not believe a compliance date is needed. While the Evaluation Committee will be voting on the revised criteria during the 30- day comment period, we will seriously consider all comments from the public and will pull the criteria back for reconsideration if public comments raise major issues. In that case, we would seek a new committee vote; further revise the draft and post it for a new round of public comments; or put the revised criteria on the agenda for a future Evaluation Committee hearing. If they are of interest, please review the proposed revisions and send us your comments at the earliest opportunity. At the end of the 30-day comment period, we will post on our web site the correspondence we have received and, in memo form, the responses of our technical staff. To submit your comments, please use the form on the web site and attach any letters or other materials. If you would like an explanation of the alternate criteria process, under which we are soliciting comments, this too is available on the ICC-ES web site. Please do not try to communicate directly with any Evaluation Committee member about a criteria under consideration, as committee members cannot accept such communications. Thank you for your interest and your contributions. If you have any questions, please contact me at sthorsell@icc-es.org, or Yamil Moya, Senior Staff Engineer, at extension 3691. You may also reach us by e-mail at es@icc-es.org. Yours very truly, SRT/raf Enclosure cc: Evaluation Committee Steven R. Thorsell, CSI, AIA Director of Environmental Programs
www.icc-es.org (800) 423-6587 (562) 699-0543 A Subsidiary of the International Code Council PROPOSED REVISIONS TO THE ACCEPTANCE CRITERIA FOR FLEXIBLE FLASHING MATERIALS AC148 Proposed April 2015 Previously approved February 2011, June 2006, July 2001, April 1999 (Previously editorially revised February 2014 and December 2010) PREFACE Evaluation reports issued by ICC Evaluation Service, LLC (ICC-ES), are based upon performance features of the International family of codes. (Some reports may also reference older code families such as the BOCA National Codes, the Standard Codes, and the Uniform Codes.) Section 104.11 of the International Building Code reads as follows: The provisions of this code are not intended to prevent the installation of any materials or to prohibit any design or method of construction not specifically prescribed by this code, provided that any such alternative has been approved. An alternative material, design or method of construction shall be approved where the building official finds that the proposed design is satisfactory and complies with the intent of the provisions of this code, and that the material, method or work offered is, for the purpose intended, at least the equivalent of that prescribed in this code in quality, strength, effectiveness, fire resistance, durability and safety. ICC-ES may consider alternate criteria for report approval, provided the report applicant submits data demonstrating that the alternate criteria are at least equivalent to the criteria set forth in this document, and otherwise demonstrate compliance with the performance features of the codes. ICC-ES retains the right to refuse to issue or renew any evaluation report, if the applicable product, material, or method of construction is such that either unusual care with its installation or use must be exercised for satisfactory performance, or if malfunctioning is apt to cause injury or unreasonable damage. NOTE: The Preface for ICC-ES acceptance criteria was revised in July 2011 to reflect changes in policy. Acceptance criteria are developed for use solely by ICC-ES for purposes of issuing ICC-ES evaluation reports.
PROPOSED REVISIONS TO THE ACCEPTANCE CRITERIA FOR FLEXIBLE FLASHING MATERIALS (AC148) 1.0 INTRODUCTION 1.1 Purpose: The purpose of this acceptance criteria is to establish requirements for recognition of self-adhering membranes used as flashings on roof hips and ridges (hip and ridge tape), and self-adhering flashing and mechanically fastened flashing for wall penetrations, in ICC Evaluation Service, LLC (ICC-ES), evaluation reports under the 2015, 2012 and 2009 International Building Code (IBC), and the 2015, 2012 and 2009 International Residential Code (IRC). The reason for the development of this criteria is that the cited codes2015, 2012 and 2009 IBC do not provide procedures for evaluating flashing materials for use at wall penetrations and roof hips and ridges (hip and ridge tape). 1.2 Scope: The acceptance criteria is limited to recognition of the following: 1.2.1 Hip and Ridge Tape: Synthetic butyl rubberbased membranes for use as a wind and rain block beneath hips and ridges of concrete or clay tile roofs under IBC Section 1507.3 and IRC Section R905.3. The membranes self-adhere to substrates. 1.2.2 Self-adhering Flashing: Evaluation under this criteria is limited to rubber-based or modified asphalt membranes, or either of these materials laminated to a fabric or plastic film, used as flashing for wall penetrations under IBC Section 1405.4 and 2015 IRC Section R703.4 (2012 and 2009 IRC Section R703.8). 1.2.3 Mechanically Attached Flashing: Evaluation under this criteria is limited to kraft-paper- or polymericbased membranes used as flashing for wall penetrations under IBC Section 1405.4 and 2015 IRC Section R703.4 (2012 and 2009 IRC Section R703.8). 1.3 Definitions: 1.3.1 Flashing: Sheet material, integrated with the water-resistive barrier, that bridges and protects the joint (gap) between the window or door frame members and the adjacent construction for the purpose of preventing water penetration by draining water away from the window or door. 1.3.2 Self-adhering Flashing: Flashing consisting of flexible facing materials coated completely or partially on at least one side with an adhesive material and which do not depend on mechanical fasteners for permanent attachment. 1.3.3 Mechanically Fastened Flashings: Flexible facing materials which depend upon mechanical fasteners for permanent attachment. 1.3.4 Pan Flashing: A type of flashing used at the base of a rough opening to divert incidental water to the exterior, or to the exterior surface of a concealed waterresistive barrier. Pan flashings have upturned legs at the interior edge and ends of the rough opening to form a three-sided pan. They are intended to collect and drain water toward the exterior, including water that may enter through a window unit (for example, between the jambs and sill). 1.4 Codes and Referenced Documents: 2 1.4.1 2015, 2012 and 2009 International Building Code (IBC), International Code Council. 1.4.2 2015, 2012 and 2009 International Residential Code (IRC), International Code Council. 1.4.3 AAMA 711-07, Voluntary Specification for Self- Adhering Flashing Used for Installation of Exterior Wall Fenestration Products, American Architectural Manufacturers Association. (See Table 2 for edition.) 1.4.4 AAMA 712-2011, Voluntary Specification for Mechanically Attached Flexible Flashing, American Architectural Manufacturers Association. 1.4.5 1.4.4 ASTM C794-80, Test Method for Adhesion-in-peel of Elastomeric Joint Sealants, ASTM International. 1.4.6 1.4.5 ASTM D412-98a (2002)e1, Test Method for Vulcanized Rubber and Thermoplastic Rubbers and Thermoplastic Elastomers-Tension, ASTM International. 1.4.7 1.4.6 ASTM D779-94 (reapproved 1998), Standard Test Method for Water Resistance of Paper, Paperboard, and Other Sheet Materials by the Dry Indicator Method, ASTM International. 1.4.8 1.4.7 ASTM D828-97, Standard Test Method for Tensile Properties of Paper and Paperboard Using Constant-Rate-of-Elongation Apparatus, ASTM International. 1.4.9 1.4.8 ASTM D882-00, Standard Test Method for Tensile Properties of Thin Plastic Sheeting, ASTM International. 1.4.10 1.4.9 ASTM D1970-09, Standard Specification for Self-Adhering Polymer Modified Bituminous Sheet Materials used as Steep Roofing Underlayment for Ice Dam Protection, ASTM International. (See Table 2 for edition.) 1.4.11 1.4.10 ASTM D5034-95, Standard Test Method for Breaking Strength and Elongation of Textile Fabrics (Grab Test), ASTM International. (See Table 2 for edition.) 1.4.12 1.4.11 ASTM E331-00 (2009), Standard Test Method for Water Penetration of Exterior Windows, Skylights, Doors, and Curtain Walls by Uniform Static Air Pressure Difference, ASTM International. 1.4.13 1.4.12 ASTM F1306-90 (reapproved 1998), Standard Test Method for Slow Rate Penetration Resistance of Flexible Barrier Films, ASTM International. 1.4.14 1.4.13 AATCC Method 127, Water Resistance: Hydrostatic Pressure Test. 2.0 BASIC INFORMATION 2.1 Product Description: Description of the membrane and the manufacturing process shall be submitted. 2.2 Installation Instructions: Installation instructions shall be submitted. Installation instructions for selfadhering flashing shall demonstrate compliance with Section 6.0 of AAMA 711. 2.3 Packaging and Identification: Description of the method of packaging and field identification of the
PROPOSED REVISIONS TO THE ACCEPTANCE CRITERIA FOR FLEXIBLE FLASHING MATERIALS (AC148) membrane shall be submitted. The packaging shall include the manufacturer s name and address, the product name and the evaluation report number. Where applicable, labeling on hip and ridge tapes shall include a statement that the product is intended for concealed areas of the roof. 2.4 Testing Laboratories: Testing laboratories shall comply with Section 2.0 of the ICC-ES Acceptance Criteria for Test Reports (AC85) and Section 4.2 of the ICC-ES Rules of Procedure for Evaluation Reports. 2.5 Test Reports: Test reports shall comply with AC85. 2.6 Product Sampling: Sampling of the flashing material for tests under this criteria shall comply with Section 3.2 of AC85. 3.0 TEST AND PERFORMANCE REQUIREMENTS 3.1 Hip and Ridge Tape: 3.1.1 Tensile Strength: See Section 4.1.1. When recognition in the evaluation report is sought for installations where the membrane will not be covered within 72 hours of installation, reports of tensile strength tests after ultraviolet-light exposure in compliance with Section 4.4.1 of this acceptance criteria shall be submitted. 3.1.2 Nail Sealability: See Section 4.2.1. 3.1.3 Peel Adhesion: See Section 4.3.1. 3.2 Self-adhering Flashing: Self-adhering flashing shall comply with AAMA 711. 3.3 Mechanically Fastened Flashing: 3.3.1 For recognition under the 2015 IRC, mechanically fastened flashing shall comply with AAMA 712. 3.3.2 For recognition under the 2015, 2012 and 2009 IBC and 2012 and 2009 IRC, mechanically fastened flashing shall comply with the following: 3.3.2.1 3.3.1 Tensile Strength: See Section 4.1. When recognition in the evaluation report is sought for installations where the membrane will not be covered within 72 hours of installation, reports of tensile strength tests after ultraviolet-light exposure in compliance with Section 4.4 of this acceptance criteria shall be submitted. 3.3.2.2 3.3.2 Nail Sealability: See Section 4.2.2. 3.3.2.3 3.3.3 Water-resistance: See Section 4.5.2. 3.3.2.4 3.3.4 Pliability: See Section 4.6.2. 3.3.2.5 3.3.5 Penetration Resistance: See Section 4.7. 4.0 TEST METHODS 4.1 Tensile Strength: 4.1.1 Hip and Ridge Tapes: 4.1.1.1 Procedure: 4.1.1.1.1 Self-adhering Non-laminated Rubber-based Membranes: Testing shall be conducted on a minimum of five machine-direction and five crossmachine-direction specimens in accordance with ASTM D412, Method A, Die C. 3 4.1.1.2 Self-adhering Laminated Membranes (Rubber-based or Modified Asphalt): Section 8.3 of ASTM D1970. Specimen size shall comply with Section 8.3.1 of ASTM D1970. 4.1.1.3 Conditions of Acceptance: The average tensile strength shall be a minimum of 2.6 pounds per inch (0.455 N/mm) of width. For laminated membranes, failure is defined as the maximum load occurring upon or prior to the first occurrence of delamination of the composite membrane, or tearing or ultimate failure of any individual component of the laminate. 4.1.2 Mechanically Fastened Flashing: Tensile strength testing shall be conducted in accordance with Sections 4.1.2.1 and 4.1.2.2, with conditions of acceptance in accordance with Section 4.1.2.3. 4.1.2.1 Procedure: Testing shall be conducted on a minimum of five machine-direction and five crossmachine-direction specimens in accordance with ASTM D828 or ASTM D882. Optionally, mechanically attached polymeric membranes may be tested for dry breaking force in accordance with ASTM D5034, using the Grab Method set forth in Section 4.2.1.1 of ASTM D5034. Test specimens shall be tested in both warp (machine) and filling (cross) direction as forth in Section 7.3 of ASTM D5034. The number of test specimens shall be as required in Section 7.3 of ASTM D5034. 4.1.2.2 Procedure: Tensile strength testing shall be conducted in accordance with Section 4.1.2.1 on specimens that have been conditioned in accordance with Sections 5.4, 5.5, 5.6 and 5.8 of AAMA 711. 4.1.2.3 Conditions of Acceptance: The average tensile strength shall be a minimum of 20 pounds per inch (0.175 N/mm). When polymeric membranes are tested for dry breaking force in accordance with ASTM D5034, the average dry breaking force shall be a minimum of 40 lbf (18.2 kg-force) in the wrap direction (machine) and 35 lbf (15.9 kg-force) in the filling (cross) direction. 4.2 Nail Sealability: 4.2.1 Hip and Ridge Tapes: 4.2.1.1 Procedure: Nail sealability tests shall be conducted in accordance with Section 8.9 of ASTM D1970. 4.2.1.2 Condition of Acceptance: Test specimens shall comply with Section 8.9.4 of ASTM D1970. 4.2.2 Mechanically Fastened Flashing: Testing for nail sealability shall be conducted in accordance with either Section 4.2.2.1 or Section 4.2.2.3. 4.2.2.1 Procedure: Testing shall be conducted in accordance with Section 5.2 of AAMA 711 in the vertical application. 4.2.2.2 Conditions of Acceptance: The specimens shall meet the minimum requirements set forth in Section 7.0 of AAMA 711. 4.2.2.3 Procedure: Testing in accordance with ASTM E331 as set forth in IBC Section 1403.2, Exception 2.
PROPOSED REVISIONS TO THE ACCEPTANCE CRITERIA FOR FLEXIBLE FLASHING MATERIALS (AC148) 4.2.2.4 Conditions of Acceptance: There shall be no water penetration on the back side of the test specimen. 4.3 Peel Adhesion: 4.3.1 Hip and Ridge Tapes: 4.3.1.1 Procedure: Five control and five aged test specimens shall be prepared and tested in accordance with ASTM C794 for each substrate for which recognition is sought. Control specimens shall be conditioned at 73 F ± 4 F (22.8 C ± 2.2 C) and 50 ± 5 percent relative humidity for a minimum of 40 hours. Aged specimens shall be exposed to 25 conditioning cycles following either Method A or Method B as described in Section 4.3.1.1.1 or 4.3.1.1.2, respectively. 4.3.1.1.1 Method A: 1. Oven drying at 120 F (48.9 C) for three hours, with all surfaces exposed. 2. Horizontal immersion in water maintained at 75 F ± 5 F (24.2 C ± 2.8 C) for three hours, with all surfaces exposed. 3. Removal from water and blotting dry before 18 hours at -40 F (-40 C). 4.3.1.1.2 Method B: 1. Oven drying at 120 F (48.9 C) for eight hours, with all surfaces exposed. 2. Horizontal immersion in water maintained at 75 F ± 5 F (24.2 C ± 2.8 C) for three hours, with all surfaces exposed. 3. Removal from water and blotting dry before 13 hours at -40 F (-40 C). 4.3.1.2 Conditions of Acceptance: No visible damage, such as cracking or chipping, to the specimens. Peel strength of aged specimens shall exceed 75 percent that of the control specimens. 4.4 Ultraviolet-light Exposure: 4.4.1 Hip and Ridge Tapes: 4.4.1.1 Procedure: Exposure to ultraviolet light from sunlamps for 210 hours (10 hours per day for 21 days) in an enclosure in accordance with Figure 1. Two 18-inch-by-48-inch (457 mm by 1219 mm) samples are required for this. Ultraviolet light shall be directed on the specimen surface that will be exposed to sunlight in normal application. Lamps and enclosure are to be adjusted so that the temperature on the sample is between 135 F and 140 F (57.2 C and 60 C). Sunlamp bulbs shall be General Electric Type H275 RUV (275 W) or equivalent bulbs providing UV characteristics of 5.0 W/m 2 /nm irradiance at a wavelength of 315 to 400 nm at one meter. 4.4.1.2 Conditions of Acceptance: No visible surface or structural changes such as peeling, chipping, cracking, flaking or pitting when observed under minimum five-power magnification. Additionally, specimens that have been exposed to ultraviolet light shall be subjected to tensile-strength tests, with conditions of acceptance as noted in Section 4.1.1 of this acceptance criteria. 4.4.2 Mechanically Fastened Flashing: 4 4.4.2.1 Procedure: Exposure to ultraviolet light from sunlamps for 210 hours (10 hours per day for 21 days) in an enclosure in accordance with Figure 1. Two 18-inch-by-48-inch (457 mm by 1219 mm) samples are required for this. Ultraviolet light shall be directed on the specimen surface that will be exposed to sunlight in normal application. Lamps and enclosure are to be adjusted so that the temperature on the sample is between 135 F and 140 F (57.2 C and 60 C). Sunlamp bulbs shall be General Electric Type H275 RUV (275 W) or equivalent bulbs providing UV characteristics of 5.0 W/m 2 /nm irradiance at a wavelength of 315 to 400 nm at one meter. 4.4.2.2 Conditions of Acceptance: No visible surface or structural changes such as peeling, chipping, cracking, flaking or pitting when observed under minimum five-power magnification. Additionally, specimens that have been exposed to ultraviolet light shall be subjected to tensile-strength testing, with conditions of acceptance as noted in Section 4.1.2 of this acceptance criteria. 4.5 Water-resistance: 4.5.1 Hip and Ridge Tapes: 4.5.1.1 Procedure: Water resistance testing shall be conducted in accordance with AATCC Test Method 127, or Section 4.5.3 of this criteria, except that the specimens shall be held at a minimum hydrostatic head of 1.2 inches (30.5 mm) for a period of two hours minimum duration. Tests shall be conducted on control specimens and on specimens taken from material sequentially subjected to the ultraviolet exposure in Section 4.4.1 of this acceptance criteria, and the accelerated aging exposure in Section 4.5.1.2 of this acceptance criteria. Control and exposed specimens shall be conditioned at 73 F ± 4 F (22.8 C ± 2.2 C) and 50 ± 5 percent relative humidity for a minimum of 40 hours prior to testing. 4.5.1.2 Accelerated Aging: Three 10-inch-square (254-mm-square) specimens shall be cut from the ultraviolet-light-exposed samples. The three specimens shall be subjected to 25 cycles of drying and soaking as follows: 1. Oven drying at 120 F (49 C) for three hours, with all surfaces exposed. 2. Immersion in room-temperature water for three hours, with all surfaces exposed. 3. After removal from the water, specimens are blotted dry, then air-dried for 18 hours at a 75 F ± 5 F (23.8 C ± 2.8 C) room temperature, with all surfaces exposed. 4.5.1.3 Conditions of Acceptance: For control and exposed specimens, no leakage is permitted on the underside of any specimen. 4.5.2 Mechanically Fastened Flashing: 4.5.2.1 Procedure: Water-resistance testing shall be conducted in accordance with ASTM D779. 4.5.2.2 Conditions of Acceptance: There shall be no water transmission though the membrane for a minimum of 24 hours. 4.5.3 Water Ponding Test: A ring shall be constructed with a sample of the membrane fastened between two 200-millimeter-diameter aluminum rings
PROPOSED REVISIONS TO THE ACCEPTANCE CRITERIA FOR FLEXIBLE FLASHING MATERIALS (AC148) using a rubber-type gasket. The membrane shall be placed between the rings and cupped to permit a depth of 30.5 mm of tap water to be exposed on 160 cm 2 of its surface. The test shall be conducted at room temperature (20 ± 2 C and 65 ± 3% RH). The ring shall be raised by about 250 mm above a sheet of plain kraft paper placed underneath the membrane to aid in monitoring any passage of water. The membrane shall be maintained at constant conditions of temperature (20 ± 2 C) and relative humidity (65 ± 3%) and be inspected at frequent intervals over a period of two hours. Ten test specimens shall be chosen at random from the membrane supplied. No water seepage shall be observed through the membrane during the water ponding test.* (*Copied with permission from CCMC Guide MF07102, Technical Guide for Sheathing, Membrane, breather-type, Section 6.4.5. The CCMC Guide is published by the Canadian Construction Materials Center.) 4.6 Pliability: 4.6.1 Hip and Ridge Tapes: 4.6.1.1 Procedure: A 1 / 8 -inch-diameter (3.2 mm) mandrel and ten specimens measuring 1 inch by 6 inches (25.4 mm by 152 mm) long, shall be placed in a refrigeration chamber and maintained at 32 F (0 C). The mandrel, test specimens, and chamber shall be allowed to equilibrate to 32 F (0 C), and shall be maintained at this temperature throughout the duration of the test. While inside the chamber, five specimens shall be individually bent 180 degrees around the mandrel with the exterior surface in tension, and five specimens shall be individually bent 180 degrees around the mandrel with the interior surface in tension. Each bend shall be completed in 2 ± 1 seconds. Note: For materials having directionality, a second set of ten specimens shall be tested so that both machine and cross-machine directions are evaluated. 4.6.1.2 Conditions of Acceptance: The flashing material shall not crack when bent over a 1 / 8 -inch diameter (3.2 mm) mandrel, at a temperature of 32 F (0 C). 4.6.2 Mechanically Fastened Flashing: 4.6.2.1 Procedure: A 1 / 8 -inch-diameter (3.2 mm) mandrel and ten specimens measuring 1 inch by 6 inches (25.4 mm by 152 mm) long, shall be placed in a refrigeration chamber and maintained at 32 F (0 C). The mandrel, test specimens, and chamber shall be allowed to equilibrate to 32 F (0 C), and shall be maintained at this temperature throughout the duration of the test. While inside the chamber, five specimens shall be individually bent 180 degrees around the mandrel with the exterior surface in tension, and five specimens shall be individually bent 180 degrees around the mandrel with the interior surface in tension. Each bend shall be completed in 2 ± 1 seconds. Note: For materials having directionality, a second set of ten specimens shall be tested so that both machine and cross-machine directions are evaluated. 4.6.2.2 Conditions of Acceptance: The flashing material shall not crack when bent over a 1 / 8 -inch-diameter (3.2 mm) mandrel, at a temperature of 32 F (0 C). 4.7 Penetration Resistance (Mechanically Fastened Flashing): 4.7.1 Procedure: Testing shall be conducted in accordance with ASTM F1306. 4.7.2 Conditions of Acceptance: The mean penetration resistance shall be a minimum of 4 lbf (17.8 N). 5.0 QUALITY CONTROL 5.1 Quality documentation complying with the ICC-ES Acceptance Criteria for Quality Documentation (AC10) shall be submitted for each facility manufacturing or labeling products that are recognized in the ICC-ES evaluation report. 5.2 A qualifying inspection shall be conducted at each manufacturing facility in accordance with the requirements of the ICC-ES Acceptance Criteria for Inspection and Inspection Agencies (AC304). 5.3 An annual inspection shall be conducted at each manufacturing facility in accordance with AC304. 6.0 EVALUATION REPORT RECOGNITION 6.1 Hip and Ridge Tape: The evaluation report shall state that use of the tape shall be recognized in a specific evaluation report on concrete or clay roofing tiles. 6.2 Self-adhering Flashing: The evaluation report shall include the following conditions of use: 6.2.1 The flashing shall be limited to installation on the substrates qualified through testing to Section 3.2 of this criteria. 6.2.2 Under the 2012 and 2009 IBC, tthese products are limited to use in Type V (IBC) construction and in structures constructed in accordance with the IRC. Under the 2015 IBC, where the flashings are used with fenestration products, they are permitted to be used on buildings of all construction types. 6.3 Mechanically Fastened Flashing: The evaluation report shall include the following conditions of use: 6.3.1 The wall flashing shall be limited to application on vertical walls. 6.3.2 The flashing is not recognized for use as pan flashing or through-wall flashing. 6.3.3 Under the 2012 and 2009 IBC, tthe flashing shall be limited to use in Type V (IBC) construction and in structures constructed in accordance with the IRC. Under the 2015 IBC, where the flashings are used with fenestration products, they are permitted to be used on buildings of all construction types. 5
PROPOSED REVISIONS TO THE ACCEPTANCE CRITERIA FOR FLEXIBLE FLASHING MATERIALS (AC148) HIP AND RIDGE TAPE Test Requirement AC148 Section TABLE 1 TEST REQUIREMENTS SELF-ADHERING FLASHING Test Requirement 2 AC148 Section Tensile Strength 3.1.1 - Ultraviolet exposure 1 4.4.1 AAMA 711 3.2 Test Requirement 3 Tensile Strength - Ultraviolet exposure 1 MECHANICALLY ATTACHED FLASHING AC148 Section Nail Sealability 3.1.2 + 4.2.1 Nail Sealability 3.3.3.2 + 4.2.2 Peel Adhesion 3.1.3 + 4.3.1 Pliability 3.3.3.4 + 4.6.2 Penetration resistance Test Requirement 4 AC148 Section 3.3.3.1, 4.1.2 + 4.4.2 AAMA 712 3.3.1 3.3.3.5 + 4.7 Water resistance 3.3.3.3 + 4.5.2 1 Required for tensile strength testing where the materials will not be covered within 72 hours after installation. 2 Whn testing is done only to AAMA 711-2013 report recognition will be limited to 2015 IRC only. 3 These requirements are applicable for products being evaluated for compliance with the 2015, 2012 and 2009 IBC and 2012 and 2009 IRC. 4 These requirements are applicable for products being evaluated for compliance with the 2015 IRC. TABLE 2 APPLICABLE EDITIONS OF REFERENCED STANDARDS 1,2 STANDARD 2015 IBC 2012 IBC 2009 IBC 2015 IRC 2012 IRC 2009 IRC AAMA 711 n/a n/a n/a 2013 2007 AAMA 712 n/a n/a n/a 2011 n/a ASTM D1970 2013 2009 2009 2013 2009 2001 ASTM D5034 1995 1995 1995 2005 1995 1995 n/a- not applicable. 1 When multiple editions of a standard are listed above, this criteria is written using the applicable section numbers for the latest edition, unless otherwise noted. 2 When a range of editions of a standard are listed above, the editions within the range are deemed to be technically equivalent for the purposes of this criteria. New report applicants are expected to use the latest edition referenced. Current report holders, whose evaluation reports are based on data complying with one of the earlier editions of the standard will not need to submit new data to demonstrate compliance with the latest edition of the referenced standard. 6
PROPOSED REVISIONS TO THE ACCEPTANCE CRITERIA FOR FLEXIBLE FLASHING MATERIALS (AC148) FIGURE 1 7